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LeetCode/cpp/vertical-order-traversal-of-a-binary-tree.cpp

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#include <deque>
#include <map>
#include <vector>
// Definition for a binary tree node.
struct TreeNode {
int val;
TreeNode *left;
TreeNode *right;
TreeNode() : val(0), left(nullptr), right(nullptr) {}
TreeNode(int x) : val(x), left(nullptr), right(nullptr) {}
TreeNode(int x, TreeNode *left, TreeNode *right)
: val(x), left(left), right(right) {}
};
namespace {
struct TreeNodeHandle {
TreeNode *node;
int x;
int y;
TreeNodeHandle(TreeNode *node, int x, int y) : node(node), x(x), y(y) {}
bool operator==(const TreeNodeHandle &rhs) const {
return node == rhs.node && x == rhs.x && y == rhs.y;
}
int value() const { return node->val; }
bool operator<(const TreeNodeHandle &rhs) const {
if (y != rhs.y) {
return y < rhs.y;
}
if (x != rhs.x) {
return x < rhs.x;
}
return value() < rhs.value();
}
};
class verticals {
TreeNode *root;
class verticals_iter {
std::deque<TreeNodeHandle> queue;
void advance() {
auto &n = queue.front();
if (n.node->left != nullptr) {
queue.push_back(TreeNodeHandle(n.node->left, n.x - 1, n.y + 1));
}
if (n.node->right != nullptr) {
queue.push_back(
TreeNodeHandle(n.node->right, n.x + 1, n.y + 1));
}
}
public:
verticals_iter(std::deque<TreeNodeHandle> queue) : queue(queue) {
if (queue.front().node == nullptr) {
queue.pop_front();
}
}
bool operator!=(const verticals_iter &other) const {
return queue != other.queue;
}
verticals_iter operator++() {
advance();
queue.pop_front();
return *this;
}
TreeNodeHandle &operator*() { return queue.front(); }
};
public:
verticals(TreeNode *root) : root(root) {}
verticals_iter begin() const {
return verticals_iter(std::deque{TreeNodeHandle(root, 0, 0)});
}
verticals_iter end() const {
std::deque<TreeNodeHandle> q;
return verticals_iter(q);
}
};
} // namespace
class Solution {
public:
std::vector<std::vector<int>> verticalTraversal(TreeNode *root) {
std::map<int, std::vector<TreeNodeHandle>> traversals;
int min_x = 0;
int max_x = 0;
for (auto node : verticals(root)) {
traversals[node.x].push_back(node);
min_x = std::min(min_x, node.x);
max_x = std::max(max_x, node.x);
}
std::vector<std::vector<int>> result;
for (int x = min_x; x <= max_x; x++) {
auto &v = traversals[x];
if (v.size()) {
std::sort(v.begin(), v.end());
result.push_back(std::vector<int>{});
for (auto &n : v) {
result.back().push_back(n.value());
}
}
}
return result;
}
};
#pragma region tests
#include <gtest/gtest.h>
namespace _tests {
TreeNode *construct_tree(const std::vector<int> &values, std::size_t i = 0) {
if (i >= values.size() || values[i] == -1) {
return nullptr;
}
auto tree = new TreeNode(values[i]);
tree->left = construct_tree(values, 2 * i + 1);
tree->right = construct_tree(values, 2 * i + 2);
return tree;
}
void destruct_tree(TreeNode *ptr) {
if (ptr == nullptr) {
return;
}
destruct_tree(ptr->left);
destruct_tree(ptr->right);
delete ptr;
}
} // namespace _tests
TEST(examples, first) {
Solution s;
auto t = _tests::construct_tree(std::vector{3, 9, 20, -1, -1, 15, 7});
EXPECT_EQ(s.verticalTraversal(t),
(std::vector{std::vector{9}, std::vector{3, 15}, std::vector{20},
std::vector{7}}));
_tests::destruct_tree(t);
}
TEST(examples, second) {
Solution s;
auto t = _tests::construct_tree(std::vector{1, 2, 3, 4, 5, 6, 7});
EXPECT_EQ(s.verticalTraversal(t),
(std::vector{std::vector{4}, std::vector{2}, std::vector{1, 5, 6},
std::vector{3}, std::vector{7}}));
_tests::destruct_tree(t);
}
TEST(examples, third) {
Solution s;
auto t = _tests::construct_tree(std::vector{1, 2, 3, 4, 6, 5, 7});
EXPECT_EQ(s.verticalTraversal(t),
(std::vector{std::vector{4}, std::vector{2}, std::vector{1, 5, 6},
std::vector{3}, std::vector{7}}));
_tests::destruct_tree(t);
}
TEST(submission, first) {
Solution s;
auto t = _tests::construct_tree(std::vector{3, 1, 4, 0, 2, 2});
EXPECT_EQ(s.verticalTraversal(t),
(std::vector{std::vector{0}, std::vector{1}, std::vector{3, 2, 2},
std::vector{4}}));
_tests::destruct_tree(t);
}
int main(int argc, char **argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
#pragma endregion /* tests */